HCN(HNC)与NH3, H2O和HF分子间相互作用的理论研究

在MP2/aug-cc-pVTZ水平上, 对HCN(HNC)与NH3, H2O和HF分子间可能存在的氢键型复合物进行了全自由度能量梯度优化, 通过在相同水平上的频率验证分析发现了稳定的分子间相互作用形式是HCN(HNC)作为质子供体或作为质子受体形成的复合物. 基组重叠误差对总相互作用能的影响均小于3.34 kJ/mol. 通过自然键轨道(NBO)分析, 研究了单体和复合物中的原子电荷和电荷转移对分子间相互作用的影响. 对称性匹配微扰理论(SAPT, Symmetry Adapted Perturbation Theory)能量分解结果表明, 在分子间相互作用中, 静电作用与诱导作用占主导地位, 而诱导作用与复合物的电荷转移之间具有良好的正相关性.     

嘌呤衍生物在葫芦［6］脲单轮烷键合固定相上的色谱行为

在反相和正相色谱模式下,研究了几种嘌呤衍生物在葫芦［6］脲单轮烷键合硅胶固定相上的高效液相色谱行为,并在反相模式下与ODS固定相进行了比较,考察了流动相中甲醇含量、流动相pH值和离子强度对嘌呤化合物保留的影响。研究结果表明:在反相模式下,嘌呤化合物与葫芦［6］脲单轮烷键合相之间存在多种相互作用,除疏水作用外,分离过程中还存在与ODS不同的色谱分离机制。在正相条件下,多作用力的色谱分离机制同样存在。葫芦［6］脲单轮烷键合相与溶质之间存在疏水、氢键、π-π和偶极-偶极等多种作用力,协同作用提高了固定相对嘌呤化合物的分离选择性。     

Cleavage of the Fe—Fe Bond of （Me2SiSiMe2） [η^5－C5H4Fe（CO）2]2 with Na／Hg and Molecular Structure of the Ring－Opened Complex

The reaction of the rifle cyclic complex (1) with sodium amalgam in THF resulted in the expected cleavage of the Fe-Fe bond to afford his-sodium salt ( Me2SiSiMe2 ) [η^5-C5H4Fe(CO)2]2 (4). The latter was not isolated and was used directly to react with MeI, PhCH2Cl, CH3C(O)Cl, PhC(O)Cl,Cy3SnCl (Cy= cyclohexyl) or Ph3SnCl to afford corresponding ring-opened derivatives (Me2SiSiMe2) [η^5-C5H4Fe(CO)2]2 [5, R=Me; 6, R=PhCH2; 7, R=CH3C(O); 8, R=PhC(O); 9, R = Cy3Sn or 10, R = Ph3Sn ]. The crystal and molecular structures of 10 were determined by X-ray diffraction analysis. The molecule took the desired ant/ conformation around the Si-Si bond. The length of the Si--Si bond is 0.2343(3)nm, which is essentially identical to that in the cyclic structure of 1[0.2346(4) tun]. This result unambiguously demonstrates that the Si--Si bond in the cyclic structure of 1 is not subject to obvious strain.     

不同孔径硅胶聚合物键合相对蛋白质分离的影响

介绍了不同孔径的硅胶聚合物键合相的合成，比较了其对蛋白质的分离特性。结果表明，大孔径的硅胶聚合物键合相比表面积小，易于获得生物大了分子的快速分离。     

Construction of the Pharmacophore Model of Glycogen Synthase Kinase-3 Inhibitors

A three dimensional pharmacophore model has been generated for glycogen synthase kinase-3 （GSK-3） inhibitots. A dataset consisting of 89 compounds was selected on the basis of the information content of the structures and activity data as required by the CATALYST system. The optimum model with four features （one hydrogen-bond acceptor unit, one ring aromatic unit, and two hydrophobic aromatic units） was selected with a good correlation coefficient （0.95）. This model is able to predict the activity of other known GSK-3 inhibitors not included in the model generation, and can be further used to identify structurally diverse compounds with desired biological activity by virtual screening.     

PHOTOPHYSICAL STUDY OF SULFONATED POLYSTYRENE

The photophysical properties of a series of sulfonated micromolecule(paratoluenesulfonic acid,HPTS) and macromolecules (linear and crosslinked poiys.tvrene) have been studied by steady-state fluorescence spectra. The results indicate that the ground sulfonated ring associations can form in both the micromolecules and the macromolecules. The fluorescence spectra of the sulfonated crosslinked copolymers appear a red-shift when the copolymers change from hydrogen-type to sodium-t~pe, and some new emission bands appear in the long-wavelength region.These results are explained in terms of synergetic effect of hydrogen bond, π-π interaction and crosslinking effect.     

两个闭式十一顶钌硼烷簇合物[(PPh3)(p-BrC6H4CO2)2RuB10H8]和[(PPh3)2Ru(p-BrC6H4CO2)(PPh3)RuB10H9]的合成与晶体结构

[RuCl₂(PPh₃)₃],B₁₀H₁₀^2-与p-BrC₆H₄COOH在CH₂Cl₂中回流, 得到两个闭式十一顶钌十硼烷簇合物: [(PPh₃)(p-BrC₆H₄CO₂)₂RuB₁₀H₈] (1) 和 [(PPh₃)₂Ru(PPh₃)(p-BrC₆H₄CO₂)RuB₁₀H₉] (2), 并进行了元素分析、红外光谱、¹H核磁共振谱、¹³C核磁共振谱、X-射线单晶衍射表征. 簇合物1属于单斜晶系，空间群为C2/c, a = 2.569(4) nm, b=1.546(2) nm, c=1.927(3) nm, β=95.11(2)°, Z=8, V=7.622(21) nm³, D_c=1.533 Mg/m³, F(000)=3472, S=1.009, R=0.0418, wR=0.0775; 簇合物2属于三斜晶系, 空间群为P-1, a = 1.3142(3) nm, b=1.3761(3) nm, c=1.8503(4) nm, α=90.445(4)°, β=105.950(4)°, g=108.980(4)°, Z=2, V=3.0251(12) nm³, D_c=1.434Mg/m³, F(000)=1316, S=1.007, R=0.0464, wR=0.1175. 单晶结构分析表明, 两个簇合物的中心都具有一个闭式1:2:4:2:2堆砌结构的十一顶{RuB₁₀}金属硼烷骨架, 硼笼开口处具有船式构象的环状的六个硼原子对Ru(1)原子呈h⁶船式配位. 在簇合物1中, 钌原子有三个簇外配体, 一个三苯基膦, 两个对溴苯甲酸根. 对溴苯甲酸根上另外的两个氧原子分别取代了B(2)和B(3)上的氢原子, 从而在簇合物的两侧形成两个对称的Ru-O-C-O-B五员环. 簇合物2是一个双金属钌硼烷簇合物, Ru(2)通过一个Ru-Ru键和两个{RuH_mB}桥键与簇合物中心{RuB₁₀}相连, 从而在簇外形成了一个变形的Ru(1)-Ru(2)-B(3)-B(6)四面体结构.     

Fe3(CO)12与P(NEt2)2Cl的反应--两核和三核铁羰基簇合衍生物的合成和晶体结构

Fe_3(CO)_(12)与配位基前体P(NEt_2)_2Cl反应,给出4个新的两核和三核铁羰基簇合衍生物:Fe_2(CO)_6(μ-Cl)[μ-P(NEt_2)_2](Ⅰ),Fe_2(CO)_6[μ-P(NEt_2)_2]_2(Ⅱ),Fe_3(CO)_9(μ-CO)(μ_3-PNEt_2)(Ⅲ)和Fe_3(CO)_9(μ_3-PNEt_2)[P(NEt_2)_3](Ⅳ)。在反应期间,配前体分子中的P-Cl和P-N键劈开,形成的分子片Cl、PNEt_2、P(NEt_2)_2和P(NEt_2)_3作为配体与铁羰合物重新组建成上述簇合物。利用X射线衍射法测定了它们的晶体结构。Ⅰ属三斜晶系,P1空间群,晶胞参数a=0.8745(6)nm,b=0.9601(7)nm,c=1.3996(10)nm,α=74.131(11)°,β=79.480(12)°,γ=69.727(12)°,V=1.0553(13)nm~3,D_c=1.543g·cm~(-3),Z=2,R=0.0443,wR=0.0831。Ⅱ属正交晶系,Pbcn空间群,晶胞参数a=1.0153(3)nm,b=1.7543(5)nm,c=1.6860(5)nm,V=3.0031(15)nm~3,D_c=1.394g·cm~(-3),Z=4,R=0.0519,wR=0.1035。Ⅲ属单斜晶系,P2_1/c空间群,晶胞参数a=1.0280(5)nm,b=1.2113(5)nm,c=1.9192(7)nm,β=93.560(7)°,V=2.1366(16)nm~3,D_c=1.712g·cm~(-3),Z=4。Ⅳ属单斜晶系,Cc空间群,晶胞参数a=1.5875(7)nm,b=1.0359(5)nm,C=2.1919(9)nm,β=101.266(8)°,V=3.535(3)nm~3,Dc=1.443g·cm~(-3),Z=4。Ⅰ和Ⅱ为两核铁簇,其簇骨架Fe_2PCl和Fe_2P_2呈蝶状。Ⅲ和Ⅳ     

微机电系统扭转微镜面驱动器的研制

提出了一种新颖的采用键合减薄工艺制作的微机电系统扭转微镜面驱动器,该种微镜面驱动器工艺制作简便可行.通过对研制的微镜面驱动器进行测试,该驱动器在18V驱动电压时可以达到0.3°的扭转角度,微镜面的频率响应时间小于1ms.同时该驱动器具有较大的微反射镜面,面积达到600μm×700μm,试验结果表明微镜面驱动器将可以应用于光通信领域.     

圆片级封装的新颖对准技术

对于3D互连、圆片级封装(WLP)和先进的MEMS器件的圆片键合,精密对准是一项关键技术,不同的MEMS,常常包含双面加工处理,而IC和CMOS制造业则只利用单面加工处理步骤,因此,圆片到圆片的对准必须使用设置在键合界面(也就是面对面)中的对准标记。论述了面对面对准方法的主要步骤,最新结果报导,用一种特殊开发的对准系统获得了≤1μm的对准精度。设备主要是为圆片对圆片的对准和键合而设计。